MQ "Nanoelectronics and Nanodevices"
IEEE Serbia and Montenegro ED/SSC Chapter organized Mini-Colloquium "Nanoelectronics and Nanodevices" on 12th September 2021. MQ was held online, via the website: http://miel.elfak.ni.ac.rs/. A group of EDS Distinguished Lecturers provided technical talks:
1. Hiroshi Iwai - Past and future of micro-/nano-electronics
2. Hei Wong - On the CMOS Device Downsizing, More Moore, More than Moore, and More-than-Moore for More Moore
3. Shunri Oda - Silicon Based Quantum Computers
4. Muhammad Mustafa Hussain - Multi-Dimensional Integrated Circuit (MD-IC): Enhancing Functionality In Multi-Faceted Way For Standalone Internet of Things (IoT) Devices
5. Simon Deleonibus - Physical and Technological Limitations of NanoCMOS Devices to the End of the Roadmap and Beyond
6. Arokia Nathan - Oxide Thin Film Transistors and Device Circuit Interactions
Date and Time
Location
Hosts
Registration
- Date: 12 Sep 2021
- Time: 10:00 AM to 12:00 PM
- All times are (UTC+02:00) Belgrade
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- Aleksandra Medvedeva 14
- Nis, Serbia & Montenegro
- Serbia & Montenegro 18000
Speakers
Hiroshi Iwai of International College of Semiconductor Technology
Past and future of micro-/nano-electronics
Electronics started at the beginning of the last century and evolved to micro-/nano-electronics. Miniaturization of the electron devices dramatically improved the performance, reliability, cost, energy consumption, volume, and weight with the order of billions to trillions times. Without the micro-/nanoelectronics, today’s intelligent society with internet and artificial intelligence cannot not exist. However, the miniaturization is now facing its limit. In this paper, the past and future of micro-/nanoelectronics are described.
Email:
Address:International College of Semiconductor Technology, National Yang Ming Chiao Tung University, Hsinchu, Taiwan
Hei Wong of Department of Electronic Engineering
On the CMOS Device Downsizing, More Moore, More than Moore, and More-than-Moore for More Moore
The progress of CMOS devices downsizing, either by shortening the gate-length/half-pitch spacing or by folding the channel width, will be ended in a couple of generations. However, Moore’s Law will continue to grow for at least another decade by adopting some emerging technologies such as 3D stacking in IC manufacturing or time scaling for device operation. Meanwhile, the significant advancement in the More-than-Moore, in the aspects of applications, system architecture, computing strategy, and networking technology domains, would empower an ordinary digital device to have much high-speed or even supercomputing capability. In effect, an ordinary digital device would virtually own lots more processors than it physically has. That is, “More Moore” will no longer rely on the smaller size of transistors or higher
density of individual chips, it will be powered by More-than-Moore.
This article is dedicated to the late Prof. Dr. Ninoslav Stojadinovic, the General Chair of International Conference on Microelectronics (MIEL) in 32 series, lost the fight with Covid-19 on 25 December 2020, to the significant scientific achievements in the area of microelectronics he had accomplished, to the high promise of professional services he had provided, to the tremendous effort and excellency he had devoted in establishing and enriching the MIEL community.
Email:
Address:Department of Electronic Engineering, , City University of Hong Kong, Hong Kong, Hong Kong